Platform one A specialist project is exploring collaborative autonomy in uncrewed vehicles on and below the water, writes Nick Flaherty. The Collaborative Automations for Subsea Intervention (CASI) project, led by Robosys Automation, aims to address a growing market need for improving operation and maintenance, and inspections of offshore equipment using undersea vehicles. Robosys Automation will be delivering two work packages, which include Multiple Objective Autonomous Adaptive Path Optimization, specifically focusing on weather routing, and fuel consumption optimisation for traditional fuels and hydrogen. The second package is for the design of software architecture, and the simulation of collaborative autonomy between USVs and ROVs, and the development of software algorithms for station-keeping and obstacle avoidance in uncharted offshore windfarms. This feasibility study includes the software and algorithm design, as well as the architecture required for the vessel to arrive on station safely and efficiently, maintain station, and also collaborate with, track and autonomously follow an ROV. endurance of the vessel overcoming the impact of hydrogen’s low volumetric density. Other aspects of the project include engineering feasibility of the ROV’s launch-and-recovery systems (LARS), combined with the related impact on a vessel’s stability in these scenarios. ACUA Ocean (p.26) will develop the design of a new LARS and ROV with more vessel stability for full, open-ocean operations, and the launch and recovery of payloads in over four million significant wave heights. OREC will develop the test and evaluation criteria for the LARS, and conduct a lifecycle assessment. Underwater vehicles Exploring collaborative autonomy on and below water Maintenance, inspection and intervention costs are about £18m per year for a 1 GW offshore windfarm, rising to £900m for a 50 GW windfarm by 2030. Current state-of-the-art subsea inspection requires ROVs deployed from larger, heavy, diesel-burning crewed vessels, which are limited by safety, crewing, vessel availability and operational sea states. The project will help to develop maritime autonomous systems for dual-use operations, such as surveying, monitoring of critical offshore and underwater infrastructure, offshore energy and marine science. Route optimisation will increase the The Class of 2024 Access the directory online, or pick up a printed copy at leading uncrewed related tradeshows across the globe www.ust-media.com/ust-magazine/Co24 6 Class of 2024 | Uncrewed Systems Technology Advanced Navigation Advanced Navigation is a world leader in AI-based robotics and navigation technologies across land, air, sea and space applications. Founded on a culture of research and discovery, Advanced Navigation’s mission is to be the catalyst of the autonomy revolution. Fields of expertise include artificial intelligence, sonar, GNSS, radio frequency systems, inertial sensors, robotics, quantum sensors and photonics. Today, Advanced Navigation is a supplier to some of the world’s largest companies, including Airbus, Boeing, Google, Tesla, NASA, Apple, and General Motors. Categories • Navigation System • IMUs, Gyros & Accelerometers • UUVs • Artificial Intelligence (AI) • Sonar/Acoustic Systems Address Level 12, 255 George Street, Sydney NSW 2000 Australia Website www.advancednavigation.com Telephone +61 2 9099 3800 Email [email protected] More info: Avionics & electronics 37 Uncrewed Systems Technology | Class of 2024 Development inputs COVE COVE is where marine technology leaders develop solutions for a better and sustainable world. On the water and around the world, COVE propels the ocean economy. COVE is where ideas become solutions, technologies become ventures, and opportunities become careers. We connect people, ideas, resources and assets to propel solutions and sustainable growth for Canada’s ocean sector. A 13-acre waterfront facility in Canada’s deepest harbour provides the best space in the world to turn ideas into commercial solutions. 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Our micromotors move everything that has to be rotated with high precision and reliability. At maxon, we develop and build electric drives that pack some real power. Our DC motors are leading the industry worldwide. They are used wherever the requirements are high and engineers cannot afford compromises. From the ocean floor to Mars! They are installed in insulin pumps and surgical power tools. You can find them in humanoid robots and in high-precision industrial applications, in tattoo machines, passenger aircraft, camera lenses, race cars, aquatic systems and cardiac pumps. For more than 60 years, we have focused on customer-specific solutions, quality, and innovation. 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To further meet our customers’ demands, Futaba can develop semi-custom products from existing OTS parts and fully customized parts from scratch. With the introduction of the FMT05 Ground Control Station, integrating Panasonic’s Toughbook platform, Futaba provides next-level control sophistication and ruggedness for UAV applications. Contact Futaba to discuss all of your company’s radio control and actuator needs. Categories • Servo Actuators • Ground Control Stations • Radio Links & Telemetry Address 5401 Trillium Blvd, Suite A225 Hoffman Estates, IL 60192 Website www.futabairc.com Telephone +1 815 701 3650 Email [email protected] More info: Mission & application systems 89 Uncrewed Systems Technology | Class of 2024 No more holes. For more than 35 years, Click Bond has been a leader in the design and manufacture of adhesive-bonded assembly solutions for the aerospace, defense, marine, UAV, advanced air mobility, automotive, and industrial sectors. Adhesive bonding requires no installation holes, no welding, and no hot work. Fewer holes mean greater structural integrity. The adhesive bondline creates a powerful barrier between the fastener and substrate, preventing galvanic corrosion. Our fasteners are lightweight and easy to install. Click Bond’s 5,000+ products include structural hardware and systems installation fasteners, such as sleeves, mounts, studs, and standoffs. Our rivetless nutplates require no installation holes, so they install 80% faster than standard nutplates, saving time and labor. Our global reputation is rooted in providing advanced designs and solutions that achieve unmatched value over our customers’ product lifecycles. The future is adhesive bonding. The future is here. Stop welding. Stop drilling. Start bonding. 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